Nayif-1

AMSAT-UK and AMSAT-NL are delighted to announce that a FUNcube communications package has been selected as a major payload for the Nayif-1 CubeSat mission.

This mission is intended to provide Emirati students with a tool to design and test systems in space. It is being developed by the Emirates Institution for Advanced Science and Technology (EIAST) in partnership with American University of Sharjah (AUS).

It is expected that this payload will provide a large amount of valuable environmental data from space together with a new, enhanced, UHF to VHF linear transponder.

The AMSAT team will be working closely with the Emirati students, in collaboration with support partner, ISIS – Innovative Solutions In Space B.V. from the Netherlands, to develop this new system in time for the launch which is scheduled to take place early 2016.

The spacecraft will only require simple ground station antennas and an SDR dongle receiver. This will make it uncomplicated for schools and colleges to use with their students.

It is anticipated Nayif-1 will be launched into an elliptical, sun synchronous, Low Earth Orbit (LEO) about 400 by 750 km. In such an orbit the satellite passes over the Emirates at least twice a day. This would allow the morning passes to be used for educational purposes and the evening passes for Amateur Radio communications.

The student team will develop and operate a special ground station for this spacecraft. They will also be developing a unique “Dashboard” to display the received telemetry data and greetings messages in Arabic.

Hessa Ali and Maitha Al Shizawi verifying the Nayif-1 hardware as well as conducting electrical and functional tests

Nayif-1 will incorporate a novel autonomous attitude determination and control system. This will be the first flight of this system. Additionally it will carry a UHF to VHF linear transponder that will have up to 0.5 watt output and which can be used by Radio Amateurs worldwide for SSB and CW communications.

A launch is planned for between September and November 2016 on a SpaceX Falcon 9.